CRE, CRIE, CRNE, SPKE, MTRE, CME Installation and operating instructions GRUNDFOS INSTRUCTIONS
CRE, CRIE, CRNE, SPKE, MTRE, CMEInstallation and operating instructions
GRUNDFOS INSTRUCTIONS
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English (GB) Installation and operating instructions
Original installation and operating instructions.
CONTENTSPage
1. Symbols used in this document
2. Abbreviations and definitions
1. Symbols used in this document 2
2. Abbreviations and definitions 2
3. General information 3
4. General description 34.1 Pumps without factory-fitted sensor 34.2 Pumps with factory-fitted pressure sensor 34.3 Settings 34.4 Radio communication 34.5 Battery 3
5. Mechanical installation 35.1 Mounting 35.2 Cable entries 35.3 Ensuring motor cooling 45.4 Outdoor installation 45.5 Drain holes 4
6. Electrical installation 46.1 Protection against electric shock, indirect contact 46.2 Mains supply 56.3 Additional protection 66.4 Connection terminals 66.5 Signal cables 106.6 Bus connection cable 10
7. Operating conditions 107.1 Maximum number of starts and stops 107.2 Ambient temperature 107.3 Installation altitude 107.4 Air humidity 117.5 Motor cooling 11
8. Operating and control modes 118.1 Overview 118.2 Operating mode 118.3 Control mode 12
9. User interfaces 129.1 Standard control panel 129.2 Changing the position of the control panel 159.3 R100 remote control 169.4 Grundfos GO Remote 28
10. External setpoint signal 2910.1 Operation with sensor feedback 2910.2 Constant-curve operation 29
11. Bus signal 30
12. Priority of settings 30
13. Grundfos Eye 31
14. Signal relays 32
15. Megging 33
16. Technical data, single-phase motors 3316.1 Supply voltage 3316.2 Leakage current 33
17. Technical data, three-phase motors 3317.1 Supply voltage 3317.2 Leakage current 33
18. Inputs/outputs 33
19. Other technical data 3419.1 Sound pressure level 34
20. Disposal 35
Warning
Prior to installation, read these installation and operating instructions. Installation and operation must comply with local regulations and accepted codes of good practice.
Warning
If these safety instructions are not observed, it may result in personal injury.
Warning
If these instructions are not observed, it may lead to electric shock with consequent risk of serious personal injury or death.
Warning
The surface of the product may be so hot that it may cause burns or personal injury.
CautionIf these safety instructions are not observed, it may result in malfunction or damage to the equipment.
NoteNotes or instructions that make the job easier and ensure safe operation.
AI Analog input.
AL Alarm, out of range at lower limit.
AO Analog output.
AU Alarm, out of range at upper limit.
CIM Communication interface module.
Current sinkingThe ability to draw current into the terminal and guide it towards GND in the internal circuitry.
Current sourcing
The ability to push current out of the terminal and into an external load which must return it to GND.
DI Digital input.
DO Digital output.
ELCB Earth leakage circuit breaker.
GDSGrundfos Digital Sensor.Factory-fitted sensor in some Grundfos pumps.
GENIbus Proprietary Grundfos fieldbus standard.
GFCIGround fault circuit interrupter.(USA and Canada).
GND Ground.
Grundfos Eye Status indicator light.
LIVELow voltage with the risk of electric shock if the terminals are touched.
OCOpen collector:Configurable open-collector output.
PE Protective earth.
PELV
Protective extra-low voltage.A voltage that cannot exceed ELV under normal conditions and under single-fault conditions, except earth faults in other circuits.
SELV
Safety extra-low voltage.A voltage that cannot exceed ELV under normal conditions and under single-fault conditions, including earth faults in other circuits.
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3. General informationThese installation and operating instructions are a supplement to the installation and operating instructions for the corresponding standard pumps CR, CRI, CRN, SPK, MTR and CM.For instructions not mentioned specifically in this manual, see the installation and operating instructions for the standard pump.
4. General descriptionGrundfos E-pumps are fitted with frequency-controlled permanent-magnet motors for single-phase or three-phase mains connection.
4.1 Pumps without factory-fitted sensor
The pumps have a built-in PI controller and can be set up for an external sensor enabling the control of the following parameters:
• constant pressure
• constant differential pressure
• constant temperature
• constant differential temperature
• constant flow rate
• constant level
• constant curve
• constant other value.
The pumps have been factory-set to constant-curve control mode. The control mode can be changed with the R100 or Grundfos GO Remote.
4.2 Pumps with factory-fitted pressure sensor
The pumps have a built-in PI controller and are set up with a pressure sensor enabling the control of the pump discharge pressure.
The pumps have been factory-set to constant-pressure control mode. The pumps are typically used to keep a constant pressure in variable-demand systems.
4.3 Settings
The description of settings applies both to pumps without factory-fitted sensor and to pumps with a factory-fitted pressure sensor.
Setpoint
The desired setpoint can be set in three ways:
• on the pump control panel
• via an input for external setpoint signal
• with the Grundfos wireless R100 remote control or Grundfos GO Remote.
Other settings
All other settings can only be made with the R100 or Grundfos GO Remote.
Important parameters, such as actual value of the control parameter and power consumption, can be read via the R100 or Grundfos GO Remote.
If special or customised settings are required, use the Grundfos PC Tool. Contact your local Grundfos company for more information.
4.4 Radio communication
This product incorporates a radio module for remote control which is a class 1 device and can be used anywhere in the EU member states without restrictions.
For use in USA and Canada, see page 36.
This product can communicate with the Grundfos GO Remote and other products of the same type via the built-in radio module.
In some cases, an external antenna may be required. Only Grundfos-approved external antennas may be connected to this product, and only by a Grundfos-approved installer.
4.5 Battery
A Li-ion battery is fitted in CRE, CRIE, CRNE, SPKE and MTRE pumps. The Li-ion battery complies with the Battery Directive (2006/66/EC). The battery does not contain mercury, lead and cadmium.
5. Mechanical installation
5.1 Mounting
The pump must be secured to a solid foundation by bolts through the holes in the flange or the base plate.
5.2 Cable entries
The motor has four M20 screwed cable entries fitted with blind plugs from factory.
The following cable glands are included:
• 2 x M20 cable gland, cable diameter ∅5 mm
• 1 x M20 cable gland, cable diameter ∅7-14 mm.
Note
Some variants of these products and all products sold in China and Korea have no possibility of radio communication according to local legislation.
Warning
Installation and operation must comply with local regulations and accepted codes of good practice.
NoteIn order to maintain the ETL mark, additional installation procedures must be followed. See page 36.
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5.3 Ensuring motor cooling
Fig. 1 Minimum distance (D) from the motor to a wall or other fixed objects
5.4 Outdoor installation
When installed outdoors, the motor must be provided with a suitable cover to avoid condensation on the electronic components. See fig. 2.
The cover must be sufficiently large to ensure that the motor is not exposed to direct sunlight, rain or snow. Grundfos does not supply covers. We therefore recommend that you have a cover built for the specific application. In areas with high air humidity, we recommend that you enable the built-in standstill heating function. See section Standstill heating, page 27.
Fig. 2 Examples of covers (not supplied by Grundfos)
5.5 Drain holes
When the motor is installed in moist surroundings or areas with high air humidity, the bottom drain hole should be open. The enclosure class of the motor will then be lower. The open drain hole helps prevent condensation in the motor as it will make the motor self-venting and allow water and humid air to escape.
The motor has a plugged drain hole on the drive side. The flange can be turned 90 ° to both sides or 180 °.
Fig. 3 Drain holes
6. Electrical installationCarry out the electrical connection according to local regulations.
Check that the supply voltage and frequency correspond to the values stated on the nameplate.
6.1 Protection against electric shock, indirect contact
Protective-earth conductors must always have a yellow/green (PE) or yellow/green/blue (PEN) colour marking.
6.1.1 Protection against mains voltage transients
The motor is protected against mains voltage transients in accordance with EN 61800-3.
6.1.2 Motor protection
The motor requires no external motor protection. The motor incorporates thermal protection against slow overloading and blocking.
Note
In order to ensure sufficient cooling of the motor, the distance (D) between the end of the fan cover and a wall or other fixed objects must always be at least 50 mm, irrespective of motor size. See fig. 1.
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NoteWhen fitting a cover to the motor, observe the guideline in section 5.3 Ensuring motor cooling.
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Warning
Do not make any connections in the terminal box unless the power supply has been switched off for at least 5 minutes.
Make sure that the power supply cannot be accidentally switched on.
The motor must be earthed and protected against indirect contact in accordance with local regulations.
If the power supply cable is damaged, it must be replaced by the manufacturer, the manufacturer’s service partner or a similarly qualified person.
Note
The user or the installer is responsible for the installation of correct earthing and protection according to local regulations. All operations must be carried out by a qualified electrician.
Warning
The motor must be earthed and protected against indirect contact in accordance with local regulations.
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6.2 Mains supply
6.2.1 Single-phase supply voltage
• 1 x 200-240 V - 10 %/+ 10 %, 50/60 Hz, PE.
Check that the supply voltage and frequency correspond to the values stated on the nameplate.
The wires in the motor terminal box must be as short as possible. Excepted from this is the separated earth conductor which must be so long that it is the last one to be disconnected in case the cable is inadvertently pulled out of the cable entry.
For maximum backup fuse, see section 16.1 Supply voltage.
Fig. 4 Example of a mains-connected motor with mains switch, backup fuse and additional protection
Fig. 5 Mains connection, single-phase motors
6.2.2 Three-phase supply voltage
• 3 x 380-500 V - 10 %/+ 10 %, 50/60 Hz, PE.
Check that the supply voltage and frequency correspond to the values stated on the nameplate.
The wires in the motor terminal box must be as short as possible. Excepted from this is the separated earth conductor which must be so long that it is the last one to be disconnected in case the cable is inadvertently pulled out of the cable entry.
For maximum backup fuse, see section 17.1 Supply voltage.
Fig. 6 Example of a mains-connected motor with mains switch, backup fuses and additional protection
Fig. 7 Mains connection, three-phase motors
NoteIf the motor is supplied through an IT network, a dedicated IT network motor should be used. Contact Grundfos.
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ELCB(GFCI)
Caution
In order to avoid loose connections, ensure that the terminal block for L1, L2 and L3 is pressed home in its socket when the supply cable has been connected.
NoteCorner grounding is not allowed for supply voltages above 3 x 480 V, 50/60 Hz.
NoteIf the motor is supplied through an IT network, a dedicated IT network motor should be used. Contact Grundfos.
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L1
L2
L3
L2
L1
L3
PE
ELCB(GFCI)
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6.3 Additional protection
6.3.1 Single-phase motors
If the motor is connected to an electric installation where an earth leakage circuit breaker (ELCB) or ground fault circuit interrupter (GFCI) is used as additional protection, this circuit breaker or interrupter must be marked with the following symbol:
The leakage current of the motor can be found in section 16.2 Leakage current.
6.3.2 Three-phase motors
If the motor is connected to an electric installation where an earth leakage circuit breaker (ELCB) or ground fault circuit interrupter (GFCI) is used as additional protection, this circuit breaker or interrupter must be of the following type:
• It must be suitable for handling leakage currents and cutting-in with short pulse-shaped leakage.
• It must trips out when alternating fault currents and fault currents with DC content, i.e. pulsating DC and smooth DC fault currents, occur.
For these motors an earth leakage circuit breaker or ground fault circuit interrupter, type B, must be used.This circuit breaker or interrupter must be marked with the following symbols:
The leakage current of the motor can be found in section 17.2 Leakage current.
Protection against phase unbalance
The motor must be connected to a power supply with a quality corresponding to IEC 60146-1-1, class C, to ensure correct motor operation at phase unbalance.This also ensures long life of the components.
6.4 Connection terminals
The descriptions and terminal overviews in this section apply to both single- and three-phase motors.
For maximum tightening torques, see section Torques, page 34.
6.4.1 Connection terminals, CRE, CRIE, CRNE, SPKE and MTRE pumps
CRE, CRIE, CRNE, SPKE and MTRE pumps have a number of inputs and outputs enabling the pumps to be used in advanced applications where many inputs and outputs are required.
The pumps have these connections:
• three analog inputs
• one analog output
• two dedicated digital inputs
• two configurable digital inputs or open-collector outputs
• Grundfos Digital Sensor input and output
• two Pt100/1000 inputs
• two LiqTec sensor inputs
• two signal relay outputs
• GENIbus connection.
See fig. 8.
• Inputs and outputsAll inputs and outputs are internally separated from the mains-conducting parts by reinforced insulation and galvanically separated from other circuits.All control terminals are supplied by safety extra-low voltage (SELV), thus ensuring protection against electric shock.
• Signal relay outputs
– Signal relay 1: LIVE:Mains supply voltages up to 250 VAC can be connected to this output.SELV:The output is galvanically separated from other circuits. Therefore, the supply voltage or safety extra-low voltage can be connected to the output as desired.
– Signal relay 2: SELV:The output is galvanically separated from other circuits. Therefore, the supply voltage or safety extra-low voltage can be connected to the output as desired.
• Mains supply (terminals N, PE, L or L1, L2, L3, PE).
A galvanically safe separation must fulfil the requirements for reinforced insulation including creepage distances and clearances specified in EN 61800-5-1.
Note
When an earth leakage circuit breaker or ground fault circuit interrupter is selected, the total leakage current of all the electrical equipment in the installation must be taken into account.
Note
When an earth leakage circuit breaker or ground fault circuit interrupter is selected, the total leakage current of all the electrical equipment in the installation must be taken into account.
ELCB(GFCI)
ELCB(GFCI)
Note
Digital input 1 is factory-set to be start/stop input where open circuit will result in stop. A jumper has been factory-fitted between terminals 2 and 6. Remove the jumper if digital input 1 is to be used as external start/stop or any other external function.
Note
As a precaution, the wires to be connected to the connection groups below must be separated from each other by reinforced insulation in their entire lengths.
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* If an external supply source is used, there must be a connection to GND.
Fig. 8 Connection terminals, CRE, CRIE, CRNE, SPKE and MTRE pumps
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A
+24 V*
1
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1217
19
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18
+24 V* +
+24 V*OC DI
+24 V*/5 V*+24 V* +
+ ++24 V*/5 V*+24 V*
+24 V* + ++24 V*/5 V*+24 V*
+5 V* AI2
GDS RX
GDS TX
GND
GENIbus A
GENIbus B
+5 V
+24 V
+24 V
GND
GENIbus Y
GND
+5 VDI1
AI1
DI3/OC1
LiqTec
AI3
GND
DI2
LiqTec
GND
AOPt100/1000
Pt100/1000
DI4/OC2
GND
+24 V*OC DIGND
NC
C2
NO
NC
C1
NO
+5 V*
Terminal Type Function
NCNormally closed contact
Signal relay 1(LIVE or SELV)
C1 Common
NONormally open contact
NCNormally closed contact
Signal relay 2(SELV only)
C2 Common
NONormally open contact
18 GND Ground
11 DI4/OC2
Digital input/output, configurable.Open collector: Max. 24 V resistive or inductive.
19 Pt100/1000 input 2 Pt100/1000 sensor input
17 Pt100/1000 input 1 Pt100/1000 sensor input
12 AOAnalog output:0-20 mA / 4-20 mA0-10 V
9 GND Ground
14 AI3Analog input:0-20 mA / 4-20 mA0-10 V
1 DI2 Digital input, configurable
21 LiqTec sensor input 1LiqTec sensor input (white conductor)
20 GNDGround(brown and black conductors)
22 LiqTec sensor input 2LiqTec sensor input(blue conductor)
10 DI3/OC1
Digital input/output, configurable.Open collector: Max. 24 V resistive or inductive.
4 AI1Analog input:0-20 mA / 4-20 mA0.5 - 3.5 V / 0-5 V / 0-10 V
2 DI1 Digital input, configurable
5 +5 VSupply to potentiometer and sensor
6 GND Ground
A GENIbus, A GENIbus, A (+)
Y GENIbus, Y GENIbus, GND
B GENIbus, B GENIbus, B (-)
3 GND Ground
15 +24 V Supply
8 +24 V Supply
26 +5 VSupply to potentiometer and sensor
23 GND Ground
25 GDS TXGrundfos Digital Sensor output
24 GDS RXGrundfos Digital Sensor input
7 AI2Analog input:0-20 mA / 4-20 mA0.5 - 3.5 V / 0-5 V / 0-10 V
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6.4.2 Connection terminals, CME pumps
The CME pump has these connections:
• two analog inputs
• two digital inputs or one digital input and one open-collector output
• Grundfos Digital Sensor input and output
• two signal relay outputs
• GENIbus connection.
See fig. 9.
• Inputs and outputsAll inputs and outputs are internally separated from the mains-conducting parts by reinforced insulation and galvanically separated from other circuits.All control terminals are supplied by safety extra-low voltage (SELV), thus ensuring protection against electric shock.
• Signal relay outputs
– Signal relay 1: LIVE:Mains supply voltages up to 250 VAC can be connected to this output.SELV:The output is galvanically separated from other circuits. Therefore, the supply voltage or safety extra-low voltage can be connected to the output as desired.
– Signal relay 2: SELV:The output is galvanically separated from other circuits. Therefore, the supply voltage or safety extra-low voltage can be connected to the output as desired.
• Mains supply (terminals N, PE, L or L1, L2, L3, PE).
A galvanically safe separation must fulfil the requirements for reinforced insulation including creepage distances and clearances specified in EN 61800-5-1.
Note
Digital input 1 is factory-set to be start/stop input where open circuit will result in stop. A jumper has been factory-fitted between terminals 2 and 6. Remove the jumper if digital input 1 is to be used as external start/stop or any other external function.
Note
As a precaution, the wires to be connected to the connection groups below must be separated from each other by reinforced insulation in their entire lengths.
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* If an external supply source is used, there must be a connection to GND.
Fig. 9 Connection terminals, CME pump (optional for CRE, CRIE, CRNE, SPKE and MTRE pumps)
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A
AI2
GDS RX
GDS TX
GND
GENIbus A
GENIbus B
+5 V
+24 V
+24 V
GND
GENIbus Y
GND
+5 V
DI1
AI1
DI3/OC1
+24 V* + ++24 V*/5 V*+24 V*
+5 V*
NC
C2
NO
NC
C1
NO
+24 V* + +
+24 V*/5 V*+24 V*
+24 V*OC DIGND
Terminal Type Function
NCNormally closed contact
Signal relay 1(LIVE or SELV)
C1 Common
NONormally open contact
NCNormally closed contact
Signal relay 2(SELV only)
C2 Common
NONormally open contact
10 DI3/OC1
Digital input/output, configurable.Open collector: Max. 24 V resistive or inductive.
4 AI1Analog input:0-20 mA / 4-20 mA 0.5 - 3.5 V / 0-5 V / 0-10 V
2 DI1 Digital input, configurable
5 +5 VSupply to potentiometer and sensor
6 GND Ground
A GENIbus, A GENIbus, A (+)
Y GENIbus, Y GENIbus, GND
B GENIbus, B GENIbus, B (-)
3 GND Ground
15 +24 V Supply
8 +24 V Supply
26 +5 VSupply to potentiometer and sensor
23 GND Ground
25 GDS TXGrundfos Digital Sensor output
24 GDS RX Grundfos Digital Sensor input
7 AI2Analog input:0-20 mA / 4-20 mA0.5 - 3.5 V / 0-5 V / 0-10 V
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6.5 Signal cables
• Use screened cables with a cross-sectional area of min. 0.5 mm2 and max. 1.5 mm2 for external on/off switch, digital inputs, setpoint and sensor signals.
• Connect the screens of the cables to frame at both ends with good connection. The screens must be as close as possible to the terminals. See fig. 10.
Fig. 10 Stripped cable with screen and wire connections
• Screws for frame connections must always be tightened whether a cable is fitted or not.
• The wires in the motor terminal box must be as short as possible.
6.6 Bus connection cable
6.6.1 New installations
For the bus connection, use a screened 3-core cable with a cross-sectional area of min. 0.5 mm2 and max. 1.5 mm2.
• If the motor is connected to a unit with a cable clamp which is identical to the one on the motor, connect the screen to this cable clamp.
• If the unit has no cable clamp as shown in fig. 11, leave the screen unconnected at this end.
Fig. 11 Connection with screened 3-core cable
6.6.2 Replacing an existing motor
• If a screened 2-core cable is used in the existing installation, connect it as shown in fig. 12.
Fig. 12 Connection with screened 2-core cable
• If a screened 3-core cable is used in the existing installation, follow the instructions in section 6.6.1 New installations.
7. Operating conditions
7.1 Maximum number of starts and stops
The number of starts and stops via the power supply must not exceed four times per hour.
When switched on via the power supply, the pump will start after approx. 5 seconds.
If a higher number of starts and stops is desired, use the input for external start/stop when starting/stopping the pump.
When started via an external on/off switch, the pump will start immediately.
7.2 Ambient temperature
7.2.1 Ambient temperature during storage and transportation
Minimum -30 °C
Maximum +60 °C.
7.2.2 Ambient temperature during operation
Minimum -20 °C
Maximum +50 °C.
The motor can operate with the rated power output (P2) at 50 °C, but continuous operation at higher temperatures will reduce the expected product life. If the motor is to operate at ambient temperatures between 50 and 60 °C, an oversized motor must be selected. Contact Grundfos for further information.
7.3 Installation altitude
Installation altitude is the height above sea level of the installation site.
• Motors installed up to 1000 metres above sea level can be loaded 100 %.
• Motors installed more than 1000 metres above sea level must not be fully loaded due to the low density and consequent low cooling effect of the air. See fig. 13.
Fig. 13 Derating of motor output power (P2) in relation to altitude above sea level
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AYB
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123
Motor
A
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B
A
Y
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1
2
1
2
Motor
Caution The motor must not be installed more than 2000 metres above sea level.
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00
1000 1200 1400 1600 1800 2000 2200[m]
P2[%]
Altitude [m]
P2 [%]
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7.4 Air humidity
Maximum air humidity: 95 %.
If the air humidity is constantly high and above 85 %, the drain holes in the drive-end flange should be open. See section 5.5 Drain holes.
7.5 Motor cooling
To ensure cooling of motor and electronics, the following must be observed:
• Position the motor in such a way that adequate cooling is ensured. See section 5.3 Ensuring motor cooling.
• The temperature of the cooling air must not exceed 50 °C.
• Keep cooling fins and fan blades clean.
8. Operating and control modesGrundfos E-pumps are set and controlled according to operating and control modes.
8.1 Overview
Example
If the pump is fitted with a pressure sensor, the control mode must be set to constant pressure. If the pump is for instance fitted with a temperature sensor, the control mode should be constant temperature. See section 8.3 Control mode for further information.
8.2 Operating mode
When the operating mode is set to "Normal", the control mode can be set to constant curve or any other control mode.See section 8.3 Control mode.
Other operating modes:
• StopThe pump has been stopped.
• Min.The pump is operating at its minimum speed.
• Max.The pump is operating at its maximum speed.
• ManualThe pump is operating at a manually set speed.
Figure 14 illustrates the min. and max. curves.
Fig. 14 Min. and max. curves
The max. curve can for instance be used in connection with the venting procedure during installation.The min. curve can be used in periods in which a minimum flow is required.
If the power supply to the pump is disconnected, the setting of operating mode will be stored.
Operating modes
Normal
Stop
Min.
Max.
Manual
Control modes
Constant pressure
Constant differential pressure
Constant temperature
Constant differential temperature
Constant flow rate
Constant level
Constant curve
Constant other value
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Min.
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8.3 Control mode
8.3.1 Pumps without factory-fitted sensor
The pumps have been factory-set to constant-curve control mode.
In this control mode, the pump will operate according to the constant curve set. See fig. 15.
Fig. 15 Pump in constant-curve control mode
Factory setting
Pumps supplied without sensor have been factory-set to constant-curve control mode.
The setpoint value corresponds to 100 % of the maximum pump performance. See data booklet or WebCAPS.
8.3.2 Pumps with factory-fitted pressure sensor
The pressure sensor is fitted on the pump discharge side, and the pump is set to constant pressure.
In this control mode, the pump will adjust its performance, i.e. pump discharge pressure, to the desired setpoint (Hset).See fig. 16.
Fig. 16 Pump in constant-pressure control mode
Factory setting
Pumps supplied with pressure sensor have been factory-set to constant-pressure control mode.
The setpoint value corresponds to 50 % of the sensor measuring range. See sensor nameplate.
9. User interfaces
Pump settings can be made by means of the following user interfaces:
Control panel
• Standard control panel.See section 9.1 Standard control panel.
Remote controls
• Grundfos R100 remote control.See section 9.3 R100 remote control.
• Grundfos GO Remote.See section 9.4 Grundfos GO Remote.
If the power supply to the pump is switched off, the settings will be stored.
9.1 Standard control panel
Fig. 17 Standard control panel
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Hset
Warning
The product may be so hot that only the buttons should be touched to avoid burns.
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Pos. Symbol Description
1
Grundfos EyeShows the operating status of the pump. See section 13. Grundfos Eye for further information.
2 - Light fields for indication of setpoint.
3 Changes the setpoint.
4Enables radio communication with the Grundfos GO Remote and other products of the same type.
5
Makes the pump ready for operation/starts and stops the pump. Start: If the button is pressed when the pump is stopped, the pump will only start if no other functions with higher priority have been enabled. See section 12. Priority of settings.Stop: If the button is pressed when the pump is running, the pump will always be stopped. When the pump is stopped via this button, the "Stop" text next to the button will illuminate.
1
2
3
4
5Stop
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9.1.1 Setpoint setting
Set the desired setpoint of the pump by pressing or . The light fields on the control panel will indicate the setpoint set.
Pump in constant-pressure control mode
The following example applies to a pump in an application where a pressure sensor gives a feedback to the pump. If the sensor is retrofitted to the pump, it must be set up manually as the pump does not automatically register a connected sensor.
Figure 18 shows that the light fields 5 and 6 are activated, indicating a desired setpoint of 3 bar with a sensor measuring range from 0 to 6 bar. The setting range is equal to the sensor measuring range.
Fig. 18 Setpoint set to 3 bar, constant-pressure control mode
Pump in constant-curve control mode
In constant-curve control mode, the pump performance will lie between the max. and min. curve of the pump. See fig. 19.
Fig. 19 Pump in constant-curve control mode
Setting to max. curve:
• Press continuously to change over to the max. curve of the pump (top light field flashes). When the top light field is on, press for 3 seconds until the light field starts flashing.
• To change back, press continuously until the desired setpoint is indicated.
Example: Pump set to max. curve.
Figure 20 shows that the top light field is flashing, indicating max. curve.
Fig. 20 Max. curve duty
Setting to min. curve:
• Press continuously to change over to the min. curve of the pump (bottom light field flashes). When the bottom light field is on, press for 3 seconds until the light field starts flashing.
• To change back, press continuously until the desired setpoint is indicated.
Example: Pump set to min. curve.
Figure 21 shows that the bottom light field is flashing, indicating min. curve.
Fig. 21 Min. curve duty
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9.1.2 Start/stop of pump
Stop the pump by pressing . When the pump is stopped, the "Stop" text next to the button will illuminate. The pump can also be stopped by continuously pressing until none of the light fields are on.
Start the pump by pressing or by continuously pressing until the desired setpoint is indicated.
If the pump has been stopped by pressing , it can only be given free to operation by pressing again.
If the pump has been stopped by pressing , it can only be restarted by pressing .
The pump can also be stopped with the R100, Grundfos GO Remote or via a digital input set to "External stop". See section 12. Priority of settings.
9.1.3 Resetting of alarms and warnings
A fault indication can be reset in one of the following ways:
• Via the digital input if it has been set to "Alarm resetting".
• Briefly press or on the pump. This will not change the setting of the pump. A fault indication cannot be reset by pressing or if the buttons have been locked.
• Switch off the power supply until the indicator lights are off.
• Switch the external start/stop input off and then on again.
• With the R100. See section Alarm, page 17.
• With the Grundfos GO Remote.
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9.2 Changing the position of the control panel
It is possible to turn the control panel 180 °. Follow the instructions below.
1. Loosen the four screws (TX25) holding the terminal box cover.
Fig. 22 Loosening the screws
2. Remove the terminal box cover.
Fig. 23 Removing the terminal box cover
3. Press and hold in the two locking tabs (pos. A) while gently lifting the plastic cover (pos. B).
Fig. 24 Lifting the plastic cover
4. Turn the plastic cover 180 °.
Fig. 25 Turning the plastic cover
5. Re-position the plastic cover correctly on the four rubber pins (pos. C). Make sure that the locking tabs (pos. A) are placed correctly.
Fig. 26 Re-positioning the plastic cover
6. Fit the terminal box cover, and make sure that it is also turned 180 ° so that the buttons on the control panel are aligned with the buttons on the plastic cover.Tighten the four screws (TX25) with 5 Nm.
Fig. 27 Fitting the terminal box cover
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TM
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Note Do not twist the cable more than 90 °.
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9.3 R100 remote control
The pumps are designed for wireless communication with the Grundfos R100 remote control.
Fig. 28 R100 communicating with the pump via infrared light
During communication, the R100 must be pointed at the control panel. When the R100 communicates with the pump, the indicator light in the middle of the Grundfos Eye will flash green. See page 31.
The R100 offers additional possibilities of setting and status displays for the pump.
The displays are divided into four parallel menus:
0. GENERAL (see operating instructions for the R100)
1. OPERATION
2. STATUS
3. INSTALLATION.
See section 9.3.1 R100 menu structure.
9.3.1 R100 menu structure
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0. GENERAL 1. OPERATION 2. STATUS 3. INSTALLATION
Switch off R100 SetpointActual setpoint and external setpoint
Control mode
Return to start Operating mode Operating mode Controller
Delete all changes Manual speed Actual controlled value Signal relay 1 and 2
Store settings Alarm Analog input 1, 2 and 3 Buttons on pump
Call up settings Warning Pt100/1000 input 1 and 2 Number
Store status data Alarm log 1 to 5 Speed Digital input 1 and 2, Function
Call up status data Warning log 1 to 5Power input and power consumption
Digital input/output 3 and 4, State
Operating hoursDigital input/output 3 and 4, Function
Replace motor bearings Low-flow stop function
Analog input 1, 2 and 3, Function
Analog input 1, 2 and 3, Measured parameter
Analog input 1, 2 and 3
Pt100/1000 input 1 and 2, Function
Pt100/1000 input 1 and 2, Measured parameter
LiqTec function
Operating range
Ramps
Motor bearing monitoring
Motor bearings
Standstill heating
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9.3.2 OPERATION menu
When communication between the R100 and the pump has been established, the first display in this menu will appear.
Setpoint
In constant-curve control mode, the setpoint is set in % of the maximum performance. The setting range will lie between the min. and max. curves.
In all other control modes, for example constant pressure, the setting range is equal to the sensor measuring range.
If the pump is connected to an external setpoint signal, the value in this display will be the maximum value of the external setpoint signal. See section 10. External setpoint signal.
Setpoint and external signal
The setpoint cannot be set if the pump is controlled via external signals (Stop, Min. curve or Max. curve). The R100 will give this warning: "External".Check if the pump has been stopped via one of the digital inputs set to "External stop" (open circuit) or it has been set to min. or max. via one of the digital inputs (closed circuit).
See section 12. Priority of settings.
Setpoint and bus communication
The setpoint cannot be set if the pump is controlled from an external control system via bus communication. The R100 will give this warning: "Bus".To override bus communication, disconnect the bus connection.
See section 12. Priority of settings.
Operating mode
Select one of the following operating modes:
• Stop
• Min. (min. speed)
• Normal (duty)
• Max. (max. speed)
• Manual (operation).
The operating modes can be selected without changing the setpoint setting.
See section 8.2 Operating mode for further information.
Manual speed
In this display, the pump speed can be set in %. When the operating mode has been set to "Manual", the pump will run at the set speed.
Alarm
In case of an alarm, the cause will appear in the display together with a fault code.
Possible alarms:
An alarm indication can be reset in this display by pressing [OK] if the cause of the fault has disappeared.
Without sensor With pressure sensor
Setpoint set
Actual setpoint
Actual value
Set the setpoint in %.
Setpoint set
Actual setpoint
Actual value
Set the desired pressure in bar.
Alarm Fault code
External fault 3
Too many restarts 4
Forced pumping 29
Overvoltage 32
Undervoltage 40
Overload 49
Blocked pump 51
Dry running 56, 57
Too high motor temperature 65
Electronics temperature too high 66
Internal communication fault 76
Internal fault 83, 85
Sensor signal outside signal range 88
Temperature sensor 1 outside signal range 91
Internal fault 163
LiqTec sensor fault 164
Signal outside range, analog input 1 165
Signal outside range, analog input 2 166
Signal outside range, analog input 3 167
Temperature sensor 2 outside signal range 175
Limit 1 exceeded 190
Limit 2 exceeded 191
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Warning
In case of a warning, the cause will appear in this display together with a fault code.
Possible warnings:
A warning indication will disappear automatically once the fault has been remedied.
Alarm log 1 to 5
In case of "alarm" faults, the last five alarm indications will appear in the alarm log. "Alarm log 1" shows the latest fault, "Alarm log 2" shows the latest fault but one, etc.
The example above gives this information:
• The alarm indication "Other fault".
• The fault code "(73)".
• The period in which the pump has been connected to the power supply after the fault occurred.
Warning log 1 to 5
In case of "warning" faults, the last five warning indications will appear in the warning log. "Warning log 1" shows the latest fault, "Warning log 2" shows the latest fault but one, etc.
The example above gives this information:
• The warning indication "Replace motor bearings".
• The fault code "(30)".
• The period in which the pump has been connected to the power supply after the fault occurred.
9.3.3 STATUS menu
The displays appearing in this menu are status displays only. It is not possible to change or set values.
The displayed values are the values that applied when the last communication between the pump and the R100 took place. If a status value is to be updated, point the R100 at the control panel and press [OK].If a parameter, for example speed, should be called up continuously, press [OK] constantly during the period in which the parameter in question should be monitored.
The tolerance of the displayed value is stated under each display. The tolerances are stated as a guide in % of the maximum values of the parameters.
Actual setpoint and external setpoint
This display shows the actual setpoint and the external setpoint in % of the range from minimum value of sensor measuring range to the setpoint set.
At a min. speed of 12 %, a set setpoint of 65 % and an external setpoint of 70 %, the actual setpoint will be0.70 x (65 - 12) + 12 = 49 %.
Operating mode
This display shows the actual operating mode (Stop, Min., Normal (duty), Max. or Manual (operation)). Furthermore, it shows where this operating mode was selected (Handheld, Pump, Bus, External or Start/stop button). See section 8. Operating and control modes for further information.
Actual controlled value
The actual controlled value will appear in this display if a sensor has been connected and the function of the analog input has been set to "Feedback sensor".
If two separate sensors are used to measure a differential parameter, the function of two analog inputs must be set to "Feedback sensor". The actual controlled value will be the absolute difference between the two sensor measurements. See section Analog input 1, 2 and 3, Function, page 24.
Warning Fault code
No contact to pump 10
Replace motor bearings 30
Too high motor temperature 65
Electronics temperature too high 66
Internal fault 83, 85, 163
Sensor signal outside signal range 88
Temperature sensor 1 outside signal range 91
Sensor supply fault, 5 V 161
Sensor supply fault, 24 V 162
LiqTec sensor fault 164
Signal outside range, analog input 1 165
Signal outside range, analog input 2 166
Signal outside range, analog input 3 167
Temperature sensor 2 outside signal range 175
Limit 1 exceeded 190
Limit 2 exceeded 191
Without sensor With pressure sensor
Tolerance: ± 2 %. Tolerance: ± 2 %.
Without sensor With pressure sensor
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Analog input 1, 2 and 3
These displays show the measured parameter and the corresponding value.
The number of available displays depends on the pump type. See below.
Pt100/1000 input 1 and 2
These displays show the measured parameter and the corresponding value. The measured temperatures will appear in these displays if Pt100 or Pt1000 sensors have been connected.
The number of available displays depends on the pump type. See below.
Speed
Tolerance: ± 5 %.
This display shows the actual speed.
Power input and power consumption
Tolerance: ± 10 %.
• "Power input" indicates the actual power consumption.
• "Power consumption" indicates an accumulated value which cannot be reset.
Operating hours
Tolerance: ± 2 %.
The value of operating hours is an accumulated value and cannot be reset.
Replace motor bearings
This display shows when to replace the motor bearings. The controller monitors the operating pattern of the motor and calculates the period between bearing replacements.
Displayable values:
• in 2 years
• in 1 year
• in 6 months
• in 3 months
• in 1 month
• in 1 week
• Now!
Function (terminal) CMECRE, CRIE,
CRNE, SPKE, MTRE
Analog input 1 (4) ● ●
Analog input 2 (7) ● ●
Analog input 3 (14) - ●
Function (terminal) CMECRE, CRIE,
CRNE, SPKE, MTRE
Pt100/1000 input 1 (17) - ●
Pt100/1000 input 2 (19) - ●
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9.3.4 INSTALLATION menu
Control mode
Select one of the following control modes:
• Const. pressure
• Const. diff. press.
• Const. temperature
• Const. diff. temp.
• Const. flow rate
• Const. level
• Const. curve
• Const. other value.
See section 8. Operating and control modes for further information.
Controller
E-pumps have a factory default setting of gain (Kp) and integral time (Ti). However, if the factory setting is not the optimum setting, the gain and the integral time can be changed in this display:
• Set the gain (Kp) within the range from 0.1 to 20.
• Set the integral-action time (Ti) within the range from 0.1 to 3600 s. If 3600 s is selected, the controller will function as a P controller.
• Furthermore, the controller can be set to inverse control. This means that if the setpoint is increased, the speed will be reduced. In the case of inverse control, the gain (Kp) must be set within the range from -0.1 to -20.
Guidelines for setting of PI controller
The table below shows the recommended controller settings:
1) Heating systems are systems in which an increase in pump performance will result in a rise in temperature at the sensor.
2) Cooling systems are systems in which an increase in pump performance will result in a drop in temperature at the sensor.
L1 = Distance [m] between pump and sensor.
L2 = Distance [m] between heat exchanger and sensor.
NoteIf the pump is connected to a bus(see section 11. Bus signal), it is not possible to select the control mode via the R100.
System/application
Kp
TiHeating system1)
Cooling system2)
0.5 0.5
0.1 0.5
0.5 0.5
0.5 -0.5 10 + 5L2
0.5 10 + 5L2
0.5 -0.5 30 + 5L2
0.5 0.5
0.5L1 < 5 m: 0.5 L1 > 5 m: 3L1 > 10 m: 5
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L2
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L2
L2
L2
t
L1
L1
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General rules of thumb
• If the controller is too slow-reacting, increase Kp.
• If the controller is hunting or unstable, dampen the system by reducing Kp or increasing Ti.
Signal relay 1 and 2
The signal relays can be configured to be activated by one of the following incidents:
• Ready
• Operation
• Alarm
• Warning
• Limit 2 exceeded
• Limit 1 exceeded
• Running
• Ext. fan control
• Not active.
The number of available displays depends on the pump type. See below.
Buttons on pump
The buttons on the pump can be set to the following:
• Active
• Not active.
Number
A number between 1 and 64 can be allocated to the pump. In the case of bus communication, a number must be allocated to each pump.
Digital input 1 and 2, Function
The digital inputs can be set to various functions.
Select one of these functions:
• Not activeWhen set to "Not active", the input has no function.
• External faultWhen the input is activated, a timer will be started. If the input is activated for more than 5 seconds, the pump will be stopped and a fault will be indicated. If the connection is disconnected for more than 5 seconds, the fault condition will cease and the pump will start if automatic restarting has been selected via PC Tool.
• Alarm resettingWhen the input is activated, a possible fault indication will be reset.
• External stopWhen the input is deactivated (open circuit), the pump will stop.
• Max. (max. speed)When the input is activated, the pump will run at the set max. speed.
• Min. (min. speed)When the input is activated, the pump will run at the set min. speed.
• Flow switchWhen this function is selected, the stop function will use a flow switch to detect low-flow stop. See section Low-flow stop function, page 23.
• Dry runningWhen this function is selected, lack of inlet pressure or water shortage can be detected.When lack of inlet pressure or water shortage (dry running) is detected, the pump will be stopped. The pump cannot restart as long as the input is activated.This requires the use of an accessory, such as these:
– a pressure switch installed on the suction side of the pump
– a float switch installed on the suction side of the pump.
• Accumulated flowWhen this function is selected, the accumulated flow can be registered. This requires the use of a flowmeter which can give a feedback signal as a pulse per defined flow of water. Further setting of this function must be made via PC Tool.
• Predef. setp., dig1 (applies only to digital input 2)When digital inputs are set to predefined setpoint, the pump will operate according to a setpoint based on the combination of the activated digital inputs. Further setting of this function must be made via PC Tool.
The priority of the selected functions in relation to each other appears from section 12. Priority of settings.A stop command will always have the highest priority.
Function (terminal) CMECRE, CRIE,
CRNE, SPKE, MTRE
Signal relay 1 (NC, C1, NO) ● ●
Signal relay 2 (NC, C2, NO) ● ●
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The number of available displays depends on the pump type. See below.
Digital input/output 3 and 4, State
The digital input/output 3 and 4 can be set to act as digital input or digital output.
Possible settings:
• Digital input
• Digital output.
The number of available displays depends on the pump type. See below.
Digital input/output 3 and 4, Function
The digital input/output 3 and 4 can be set to these functions:
Possible functions, digital input/output 3
Possible functions, digital input/output 4
The number of available displays depends on the pump type. See below.
Function (terminal) CMECRE, CRIE,
CRNE, SPKE, MTRE
Digital input 1, Function (2 and 6) ● ●
Digital input 2, Function (1 and 9) - ●
Function (terminal) CMECRE, CRIE,
CRNE, SPKE, MTRE
Digital input/output 3, State (10 and 6)
● ●
Digital input/output 4, State (11 and 18)
- ●
Set to digital input Set to digital output
• Not active• Predef. setp., dig2• External fault • Alarm resetting• External stop• Max.• Min.• Flow switch• Dry running• Accumulated flow
• Ready• Operation• Alarm• Warning• Limit 2 exceeded • Limit 1 exceeded • Running• Not active
Set to digital input Set to digital output
• Not active• Predef. setp., dig3• External fault • Alarm resetting• Reversing• External stop• Max.• Min.• Flow switch• Dry running• Accumulated flow
• Ready• Operation• Alarm• Warning• Limit 2 exceeded • Limit 1 exceeded • Running• Not active
Function (terminal) CMECRE, CRIE,
CRNE, SPKE, MTRE
Digital input/output 3, Function (10 and 6)
● ●
Digital input/output 4, Function (11 and 18)
- ●
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Low-flow stop function
The low-flow stop function can be set to these values:
• Not active
• Energy optimal
• High comfort
• User-defined.
When the low-flow stop function is active, the flow will be monitored. If the flow becomes lower than the set minimum flow (Qmin), the pump will change from continuous operation at constant pressure to start/stop operation and finally be stopped if the flow reaches zero.
The advantages of enabling the low-flow stop function are the following:
• no unnecessary heating of the pumped liquid
• reduced wear of the shaft seals
• reduced noise from operation.
The disadvantages of enabling the low-flow stop function may be the following:
• The delivered pressure is not completely constant as it will fluctuate between the start and stop pressures.
• The frequent starts/stops of the pump may in some applications cause acoustic noise.
The impact of the above disadvantages very much depends on the setting selected for the low-flow stop function.The "High comfort" setting will minimise pressure fluctuations and acoustic noise.If "Energy optimal" is selected, the main priority will be to reduce the energy consumption as much as possible.
Possible settings of the low-flow stop function:
• Energy optimal:The pump will automatically adjust the parameters for the stop function so that the energy consumption during the start/stop operation period is minimised.In this case, the stop function will use factory-set values of minimum flow (Qmin) and other internal parameters.
• High comfort:The pump will automatically adjust the parameters for the stop function so that the disturbances during the start/stop operation period are minimised.In this case, the stop function will use factory-set values of minimum flow (Qmin) and other internal parameters.
• User-defined:The pump will use the parameters set for ∆H and Qmin respectively for the stop function.
Fig. 29 Difference between start and stop pressures (∆H) and minimum flow (Qmin)
In start/stop operation, the pressure will vary between the start and stop pressures. See fig. 29.
In "User-defined" mode, ∆H has been factory-set to 10 % of the actual setpoint. ∆H can be set within the range from 5 to 30 % of actual setpoint.
The pump will change to start/stop operation if the flow becomes lower than Qmin.
Qmin is set in % of the rated flow of the pump(see pump nameplate). In "User-defined" mode, Qmin has been factory-set to 10 % of rated flow.
Low-flow detection
Low flow can be detected in two ways:
1. A built-in "low-flow detection function" which is active if none of the digital inputs are set up for flow switch.
2. A flow switch connected to one of the digital inputs.
1. Low-flow detection function:The pump will check the flow regularly by reducing the speed for a short time. If there is no or only a small change in pressure, this means that there is low flow. The speed will be increased until the stop pressure (actual setpoint + 0.5 x ΔH) is reached and the pump will stop. When the pressure has fallen to the start pressure (actual setpoint - 0.5 x ΔH), the pump will restart.
– If the flow is higher than the set minimum flow (Qmin), the pump will return to continuous operation at constant pressure.
– If the flow is still lower than the set minimum flow (Qmin), the pump will continue in start/stop operation until the flow is higher than the set minimum flow (Qmin). When the flow is higher than the set minimum flow (Qmin), the pump will return to continuous operation.
2. Flow switch:When the digital input is activated for more than 5 seconds because there is low flow, the speed will be increased until the stop pressure (actual setpoint + 0.5 x ΔH) is reached, and the pump will stop. When the pressure has fallen to start pressure, the pump will restart. If there is still no flow, the pump will quickly reach the stop pressure and stop. If there is flow, the pump will continue operating according to the setpoint.
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Stop pressure
Start pressure
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Operating conditions for the low-flow stop function
It is only possible to use the stop function if the system incorporates a pressure sensor, a non-return valve and a diaphragm tank.
Fig. 30 Position of the non-return valve and pressure sensor in system with suction lift operation
Fig. 31 Position of the non-return valve and pressure sensor in system with a positive inlet pressure
Set min. flow
Set the minimum flow (Qmin) in this display. This setting determines at which flow rate the system is to change from continuous operation at constant pressure to start/stop operation. The setting range is 5 to 30 % of rated flow.
Factory setting: 10 %.
Diaphragm tank volume
The stop function requires a diaphragm tank of a certain minimum size. Set the size of the installed tank in this display.
In order to reduce the number of start/stops per hour or to reduce the ∆H, a larger tank can be installed.
The tank must be installed immediately after the pump and the precharge pressure must be 0.7 x actual setpoint.
Recommended diaphragm tank size:
Analog input 1, 2 and 3, Function
The analog inputs can be set to these functions:
• Not active
• Feedback sensor
• Ext. setpoint infl.See sectsion 10. External setpoint signal for further description.
• Other function.
The number of available displays depends on the pump type. See below.
Caution The non-return valve must always be installed before the pressure sensor. See figs 30 and 31.
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85
82
19
07
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83
19
07
Rated flow rate of pump[m3/h]
CRE pumpTypical diaphragm
tank size[litres]
0-6 1s, 1, 3, 5 8
7-24 10, 15, 20 18
25-40 32 50
41-70 45, 64 120
71-100 90 180
Pressure sensor
Diaphragm tank
Non-returnvalve
Pump
Diaphragm tank
Pressure sensor
Pump Non-return valve
Function (terminal) CMECRE, CRIE,
CRNE, SPKE, MTRE
Analog input 1, Function (4) ● ●
Analog input 2, Function (7) ● ●
Analog input 3, Function (14) - ●
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Analog input 1, 2 and 3, Measured parameter
The analog inputs can be set to these parameters:
• Inlet pressure
• Diff. press., inlet
• Discharge press.
• Diff. press., outlet
• Diff. press., pump
• Press. 1, external
• Press. 2, external
• Diff. press., external
• Feed tank level
• Storage tank level
• Flow, pump
• Flow, external
• Liquid temp.
• Diff. temp., external
• Temperature 1
• Temperature 2
• Ambient temp.
• Other parameter.
The number of available displays depends on the pump type. See below.
Analog input 1, 2 and 3
Select the following:
• Signal type (0.5 - 3.5 V, 0-5 V, 0-10 V, 0-20 mA or 4-20 mA).
• Measuring units for the measured parameters.Available measuring units:
• Sensor measuring range.
The number of available displays depends on the pump type. See below.
Function (terminal) CMECRE, CRIE,
CRNE, SPKE, MTRE
Analog input 1, Measured parameter (4)
● ●
Analog input 2, Measured parameter (7)
● ●
Analog input 3, Measured parameter (14)
- ●
Parameter Possible units
Pressure bar, m, kPa, psi, ft
Flow rate m3/h, l/s, yd3/h, gpm
Temperature °C, °F
Other %
Function (terminal) CMECRE, CRIE,
CRNE, SPKE, MTRE
Analog input 1 (4) ● ●
Analog input 2 (7) ● ●
Analog input 3 (14) - ●
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Pt100/1000 input 1 and 2, Function
The Pt100/1000 inputs can be set to these functions:
• Not active
• Feedback sensor
• Ext. setpoint infl.See section 10. External setpoint signal for further description.
• Other function.
The number of available displays depends on the pump type. See below.
Pt100/1000 input 1 and 2, Measured parameter
The Pt100/1000 inputs can be set to these parameters:
• Liquid temp.
• Temperature 1
• Temperature 2
• Ambient temp.
• DE bearing temp.
• NDE bearing temp.
The number of available displays depends on the pump type. See below.
LiqTec function
The function of LiqTec sensors can be enabled or disabled in this display. A LiqTec sensor protects the pump against dry running and too high liquid temperature (130 ± 5 °C).
When the LiqTec function has been enabled, it will stop the pump if dry running occurs or if the liquid temperature becomes too high. The pump must be restarted manually if it has been stopped due to dry running or too high liquid temperature.
Possible settings:
• Active
• Not active.
The number of available displays depends on the pump type. See below.
Operating range
Set the operating range as follows:
• Set the min. speed within the range from fixed min. speed to user-set max. speed.
• Set the max. speed within the range from user-set min. speed to fixed max. speed.
The range between the user-set min. and max. speeds is the operating range. See fig. 32.
Fig. 32 Example of min. and max. settings
Function (terminal) CMECRE, CRIE,
CRNE, SPKE, MTRE
Pt100/1000 input 1, Function (17 and 18)
- ●
Pt100/1000 input 2, Function (19 and 18)
- ●
Function (terminal) CMECRE, CRIE,
CRNE, SPKE, MTRE
Pt100/1000 input 1, Measured parameter (17 and 18)
- ●
Pt100/1000 input 2, Measured parameter (19 and 18)
- ●
Function (terminal) CMECRE, CRIE,
CRNE, SPKE, MTRE
LiqTec function (21 and 22) - ●
TM
00
67
85
50
95
Max. speed (fixed)
User-set max. speed
Operating range
User-set min. speed
Min. speed (fixed)
24 %
12 %
0 %
67 %
100 %
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Ramps
The setting of ramps is only relevant in the case of constant-curve operation.
The ramps determine how quickly the pump can accelerate and decelerate, respectively, during start/stop or setpoint changes.
The following can be set:
• acceleration time, 0.1 to 300 s
• deceleration time, 0.1 to 300 s.
The times apply to the acceleration from stop to rated speed and the deceleration from rated speed to stop, respectively. At short deceleration times, the deceleration of the pump may depend on load and inertia as there is no possibility of actively braking the pump. If the power supply is switched off, the deceleration of the pump will only depend on load and inertia.
Motor bearing monitoring
The motor bearing monitoring function can be set to these values:
• Active
• Not active.
When the function is set to "Active", the controller will monitor the operating pattern of the motor and calculate when the bearings need to be replaced.
Motor bearings
This function can be set to these values:
• Replaced
• Nothing done.
When the bearing monitoring function is active, the controller will give a warning indication when the motor bearings are due to be replaced. See section Alarm, page 17.
When the motor bearings have been replaced, confirm this action in the above display by pressing [OK].
Standstill heating
The standstill heating function can be set to these values:
• Active
• Not active.
When the function is set to "Active", an AC voltage will be applied to the motor windings. The applied voltage will ensure that sufficient heat is generated to avoid condensation in the motor.
Note
Even if the function is changed to "Not active", the controller will continue to calculate when the bearings need to be replaced, but no warning will be given when it is time for replacement.
When the function is changed back to "Active", the accumulated calculations for bearing wear will be used to calculate the replacement time.
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9.4 Grundfos GO Remote
The pump is designed for wireless radio or infrared communication with the Grundfos GO Remote.
The Grundfos GO Remote enables setting of functions and gives access to status overviews, technical product information and actual operating parameters.
The Grundfos GO Remote offers three different mobile interfaces (MI). See fig. 33.
Fig. 33 Grundfos GO Remote communicating with the pump via radio or infrared light
9.4.1 Communication
When the Grundfos GO Remote communicates with the pump, the indicator light in the middle of the Grundfos Eye will flash green. See section 13. Grundfos Eye.
Communication must be established using one of these communication types:
• radio communication
• infrared communication.
Radio communication
Radio communication can take place at distances up to 30 metres. It is necessary to enable communication by pressing or on the pump control panel.
Infrared communication
When communicating via infrared light, the Grundfos GO Remote must be pointed at the pump control panel.
9.4.2 Navigation
Navigation can be done from the dashboard. See fig. 34.
Dashboard
Fig. 34 Example of dashboard
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Pos. Description
1Grundfos MI 201:Consists of an Apple iPod touch 4G and a Grundfos cover.
2Grundfos MI 202:Add-on module which can be used in conjunction with Apple iPod touch 4, iPhone 4G or later.
3
Grundfos MI 301:Separate module enabling radio or infrared communication. The module can be used in conjunction with an Android or iOS-based Smartphone with Bluetooth connection.
+
1
2
3
+
+
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Pos. Description Action
1Connection indicator
This text appears when the Grundfos GO Remote app has connected to an MI 201, MI 202 or MI 301.If the hardware is not connected, it will not be possible to communicate with a Grundfos product.
2 Back button Returns to the previous display.
3Product information
Provides technical information about the product.
4 Product nameName of the product communicating with the Grundfos GO Remote.
5Alarms and warnings
Shows alarms and warnings.
6 Grundfos EyeShows the operating condition of the product.
7Primary status value
Shows the primary status value.
8Secondary status value
Shows the secondary status value.
9 Control sourceShows by which interface the product is controlled.
10 Control modeShows the control mode of the product.
11Actual setpoint value
Shows the actual setpoint value.
12 Operating mode Shows the operating mode.
13 Show menu Gives access to other menus.
14 Stop Stops the product.
Tool bar
15 HelpThe help function describes the menus making it easy for the user to change settings, etc.
16 DocumentationGives access to installation and operating instructions and quick guides.
17 ReportEnables the creation of user-defined reports.
18 UpdateEnables update of the Grundfos GO Remote app.
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15 16 17 18
14
12
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6
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10. External setpoint signalIt is possible to remote-set the setpoint by connecting an analog signal transmitter to one of the analog inputs setup for external setpoint influence. See section Analog input 1, 2 and 3, Function, page 24.
The actual external signal (0.5 - 3.5 V, 0-5 V, 0-10 V, 0-20 mA, 4-20 mA) must be selected with the R100 or Grundfos GO Remote.
If constant-curve operation is selected with the R100 or Grundfos GO Remote, the pump can be controlled by any controller.
10.1 Operation with sensor feedback
If fitted with a sensor, the pump can operate according to the control modes below:
• Constant pressure
• Constant differential pressure
• Constant temperature
• Constant differential temperature
• Constant flow rate
• Constant level
• Constant other value.
If operation with sensor feedback is selected, the setpoint can be set externally within the range from the lower value of the sensor measuring range to the setpoint set on the motor or with the R100 or Grundfos GO Remote. See fig. 35.
Fig. 35 Relation between the actual setpoint and the external setpoint signal in operation with sensor feedback
Example: At a lower sensor value of 0 bar, a set setpoint of 5 bar and an external setpoint of 70 %, the actual setpoint is 0.70 x (5 - 0) + 0 = 3.5 bar.
10.2 Constant-curve operation
If constant-curve operation is selected, the setpoint can be set externally within the range from the min. speed to the setpoint set on the motor or with the R100 or Grundfos GO Remote. See fig. 36.
Fig. 36 Relation between the actual setpoint and the external setpoint signal in constant-curve operation
Example: At a set setpoint of 65 % of nmax. and an external setpoint of 70 %, the actual setpoint is 0.70 x (65 - 12) + 12 = 49 %.
TM
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0 10 V0 20 mA4 20 mA
0.5 3.5 V0 5V
Actual setpoint
Upper value of sensor measuring range
Setpoint set on motor, with the R100 or with Grundfos GO Remote
Lower value of sensor measuring range
External setpoint signal
Actualsetpoint
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35
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0 10 V0 20 mA4 20 mA
0.5 3.5 V0 5V
% speed
Max. speed
Setpoint set on pump, with the R100 or with Grundfos GO Remote
Min. speed
External setpoint signal
Actualsetpoint
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11. Bus signal The motor enables serial communication via an RS-485 input. The communication is carried out according to the Grundfos GENIbus protocol and enables connection to a building management system or another external control system.
Via a bus signal, it is possible to remote-set motor operating parameters, such as setpoint and operating mode. At the same time, the motor can, via the bus, provide status information about important parameters, such as actual value of control parameter, input power and fault indications.
Contact Grundfos for further information.
12. Priority of settings The motor can always be set to operation at max. speed or to stop with the R100 or Grundfos GO Remote.
If two or more functions are enabled at the same time, the motor will operate according to the function with the highest priority.
Example: If, via the digital input, the motor has been set to max. speed, the motor control panel, the R100 or Grundfos GO Remote can only set the motor to "Manual" or "Stop".
The priority of the settings appears from the table below:
* If the bus communication is interrupted, the motor will resume its previous operating mode, for example "Stop", selected with the R100, Grundfos GO Remote or on the motor control panel.
NoteIf a bus signal is used, the number of settings available via the R100 or Grundfos GO Remote will be reduced.
Priority Start/stop buttonR100, Grundfos GO Remote or control panel on motor
Digital input Bus communication
1 Stop
2 Stop*
3 Manual
4 Max. speed*
5 Stop
6 Stop
7 Max. speed
8 Min. speed
9 Start
10 Max. speed
11 Min. speed
12 Min. speed
13 Start
14 Start
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13. Grundfos EyeThe operating condition of the motor is indicated by the Grundfos Eye on the motor control panel. See fig. 37, pos. A.
Fig. 37 Grundfos Eye
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Grundfos Eye Indication Description
No lights on.Power off.Motor not running.
Two opposite green indicator lights rotating in the direction of rotation of the motor when seen from the non-drive end.
Power on.Motor running.
Two opposite green indicator lights permanently on.
Power on.Motor not running.
One yellow indicator light rotating in the direction of rotation of the motor when seen from the non-drive end.
Warning.Motor running.
One yellow indicator light permanently on.Warning.Motor stopped.
Two opposite red indicator lights flashing simultaneously.
Alarm.Motor stopped.
The green indicator light in the middle flashes quickly four times.
Remote control with the Grundfos GO Remote via radio.The motor is trying to communicate with the Grundfos GO Remote. The motor in question is highlighted in the Grundfos GO Remote display to inform the user of the location of the motor.
The green indicator light in the middle flashes continuously.
When the motor in question is selected in the Grundfos GO Remote menu, the green indicator light in the middle will flash continuously. Press on the motor control panel to allow remote control and data exchange via the Grundfos GO Remote.
The green indicator light in the middle is permanently on.
Remote control with the Grundfos GO Remote via radio.The motor is communicating with the Grundfos GO Remote via radio connection.
The green indicator light in the middle flashes quickly while the R100 or Grundfos Go Remote is exchanging data with the motor. It will take a few seconds.
Remote control with the R100 or Grundfos GO Remote via infrared light.The motor is receiving data from the R100 or Grundfos GO Remote via infrared communication.
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14. Signal relaysThe motor has two outputs for potential-free signals via two internal relays.
The signal outputs can be set to "Operation", "Running", "Ready", "Alarm" and "Warning".
The functions of the two signal relays appear from the table below:
Description Grundfos EyeContact position for signal relays when activated Operating
modeOperation Running Ready Alarm Warning
Power off.
Off
-
Pump running in "Normal" mode
Green, rotating
Normal, Min. or Max.
Pump running in "Manual" mode.
Green, rotating
Manual
Pump in operating mode "Stop".
Green, steady
Stop
Warning, but the pump is running.
Yellow, rotating
Normal, Min. or Max.
Warning, but the pump is running in "Manual" mode.
Yellow, rotating
Manual
Warning, but the pump was stopped via "Stop" command.
Yellow, steady
Stop
Alarm, but the pump is running.
Red, rotating
Normal, Min. or Max.
Alarm, but the pump is running in "Manual" mode.
Red, rotating
Manual
Pump stopped due to an alarm.
Red, flashing
Stop
NCNOC NCNOC NCNOC NCNOC NCNOC
C NO NC C NO NC C NO NC NCNOC NCNOC
C NO NC C NO NC NCNOC NCNOC NCNOC
NCNOC NCNOC C NO NC NCNOC NCNOC
C NO NC C NO NC C NO NC NCNOC C NO NC
C NO NC C NO NC NCNOC NCNOC C NO NC
NCNOC NCNOC C NO NC NCNOC C NO NC
C NO NC C NO NC NCNOC C NO NC NCNOC
C NO NC C NO NC NCNOC C NO NC NCNOC
NCNOC NCNOC NCNOC C NO NC NCNOC
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15. Megging16. Technical data, single-phase motors
16.1 Supply voltage
• 1 x 200-240 V - 10 %/+ 10 %, 50/60 Hz, PE.
Check that the supply voltage and frequency correspond to the values stated on the nameplate.
Recommended fuse size
Standard as well as quick-blow or slow-blow fuses may be used.
16.2 Leakage current
Earth leakage current < 3.5 mA (AC supply).
Earth leakage current < 10 mA (DC supply).
The leakage currents are measured in accordance with EN 61800-5-1:2007.
17. Technical data, three-phase motors
17.1 Supply voltage
• 3 x 380-500 V - 10 %/+ 10 %, 50/60 Hz, PE.
Check that the supply voltage and frequency correspond to the values stated on the nameplate.
Recommended fuse size
Standard as well as quick-blow or slow-blow fuses may be used.
17.2 Leakage current
The leakage currents are measured in accordance with EN 61800-5-1:2007.
18. Inputs/outputs
Ground reference (GND)
All voltages refer to GND.
All currents return to GND.
Absolute maximum voltage and current limits
Exceeding the following electrical limits may result in severely reduced operating reliability and motor life:
Relay 1:
Maximum contact load: 250 VAC, 2 A or 30 VDC, 2 A.
Relay 2:
Maximum contact load: 30 VDC, 2 A.
GENI terminals: -5.5 to 9.0 VDC or < 25 mADC.
Other input/output terminals: -0.5 to 26 VDC or < 15 mADC.
Digital inputs (DI)
Internal pull-up current > 10 mA at Vi = 0 VDC.
Internal pull-up to 5 VDC (currentless for Vi > 5 VDC).
Certain low logic level: Vi < 1.5 VDC.
Certain high logic level: Vi > 3.0 VDC.
Hysteresis: No.
Screened cable: 0.5 - 1.5 mm2 / 28-16 AWG.
Maximum cable length: 500 m.
Open-collector digital outputs (OC)
Current sinking capability: 75 mADC, no current sourcing.
Load types: Resistive or/and inductive.
Low-state output voltage at 75 mADC: Max. 1.2 VDC.
Low-state output voltage at 10 mADC: Max. 0.6 VDC.
Overcurrent protection: Yes.
Screened cable: 0.5 - 1.5 mm2 / 28-16 AWG.
Maximum cable length: 500 m.
Analog inputs (AI)
Voltage signal ranges:
• 0.5 - 3.5 VDC, AL AU.
• 0-5 VDC, AU.
• 0-10 VDC, AU.
Voltage signal: Ri > 100 kΩ at +25 °C.
Leak currents may occur at high operating temperatures. Keep the source impedance low.
Current signal ranges:
• 0-20 mADC, AU.
• 4-20 mADC, AL AU.
Current signal: Ri = 292 Ω.
Current overload protection: Yes. Change to voltage signal.
Measurement tolerance: - 0/+ 3 % of full scale (max.-point coverage).
Screened cable: 0.5 - 1.5 mm2 / 28-16 AWG.
Maximum cable length: 500 m (excl. potentiometer).
Potentiometer connected to +5 V, GND, any AI:
Use maximum 10 kΩ.
Maximum cable length: 100 m.
CautionMegging of an installation incorporating MGE motors is not allowed, as the built-in electronics may be damaged.
Motor size[kW]
Min.[A]
Max.[A]
0.25 - 0.75 6 10
1.1 - 1.5 10 16
Motor size[kW]
Min.[A]
Max.[A]
0.25 - 1.1 6 6
1.5 - 2.2 6 10
Motor size[kW]
Leakage current[mA]
0.75 - 2.2(supply voltage < 400 V)
< 3.5
0.75 - 2.2(supply voltage > 400 V)
< 5
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Analog output (AO)
Current sourcing capability only.
Voltage signal:
• Range: 0-10 VDC.
• Minimum load between AO and GND: 1 kΩ.
• Short-circuit protection: Yes.
Current signal:
• Ranges: 0-20 and 4-20 mADC.
• Maximum load between AO and GND: 500 Ω.
• Open-circuit protection: Yes.
Tolerance: - 0/+ 4 % of full scale (max-point coverage).
Screened cable: 0.5 - 1.5 mm2 / 28-16 AWG.
Maximum cable length: 500 m.
Pt100/1000 inputs (PT)
Temperature range:
• Minimum -30 °C (88 Ω/882 Ω).
• Maximum +180 °C (168 Ω/1685 Ω).
Measurement tolerance: ± 1.5 °C.
Measurement resolution: < 0.3 °C.
Automatic range detection (Pt100 or Pt1000): Yes.
Sensor fault alarm: Yes.
Screened cable: 0.5 - 1.5 mm2 / 28-16 AWG.
Use Pt100 for short wires.
Use Pt1000 for long wires.
LiqTec sensor inputs
Use Grundfos LiqTec sensor only.
Screened cable: 0.5 - 1.5 mm2 / 28-16 AWG.
Grundfos Digital Sensor input and output (GDS)
Use Grundfos Digital Sensor only.
Power supplies (+5 V, +24 V)
+5 V:
• Output voltage: 5 VDC - 5 %/+ 5 %.
• Maximum current: 50 mADC (sourcing only).
• Overload protection: Yes.
+24 V:
• Output voltage: 24 VDC - 5 %/+ 5 %.
• Maximum current: 60 mADC (sourcing only).
• Overload protection: Yes.
Digital outputs (relays)
Potential-free changeover contacts.
Minimum contact load when in use: 5 VDC, 10 mA.
Screened cable: 0.5 - 2.5 mm2 / 28-12 AWG.
Maximum cable length: 500 m.
Bus input
Grundfos GENIbus protocol, RS-485.
Screened 3-core cable: 0.5 - 1.5 mm2 / 28-16 AWG.
Maximum cable length: 500 m.
19. Other technical data
EMC (electromagnetic compatibility)
EN 61800-3.
Residential areas, unlimited distribution, corresponding to CISPR 11, class B, group 1.
Industrial areas, unlimited distribution, corresponding to CISPR 11, class A, group 1.
Contact Grundfos for further information.
Enclosure class
Standard: IP55 (IEC 34-5).
Optional: IP66 (IEC 34-5).
Insulation class
F (IEC 85).
Torques
19.1 Sound pressure level
The grey fields indicate that the motor is not yet available in this MGE motor range, but is available in the previous MGE motor range.
Terminal Thread sizeMax. torque
[Nm]
L1, L2, L3, L, N M4 1.8
NC, C1, C2, NO M2.5 0.5
1 to 26 and A, Y, B M2 0.5
Motor[kW]
Max. speed stated on nameplate
[min-1]
Speed[min-1]
Sound pressure levelISO 3743[dB(A)]
1-phase motors
3-phase motors
0.25 to 0.75
20001500 38 38
2000 42 42
40003000 53 53
4000 58 58
59004000 58 58
5900 68 68
1.1
20001500 38
2000 42
40003000 53 53
4000 58 58
59004000 58 58
5900 68 68
1.5
20001500
2000
40003000 57 57
4000 64 64
59004000 58 58
5900 68 68
2.2
20001500
2000
40003000 57
4000 64
59004000 58
5900 68
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20. DisposalThis product or parts of it must be disposed of in an environmentally sound way:
1. Use the public or private waste collection service.
2. If this is not possible, contact the nearest Grundfos company or service workshop.
The waste battery should be disposed of through the national collective schemes. If in doubt, contact your local Grundfos company.
Subject to alterations.
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Appendix 1
1. Installation in the USA and Canada
1.1 Electrical codes
For USA
This product complies with the Canadian Electrical Code and the US National Electrical Code.
This product has been tested according to the national standards for Electronically Protected Motors:
CSA 22.2 100.04: 2009 (applies to Canada only).
UL 1004-1: June 2011 (applies to USA only).
Pour le Canada
Codes de l'électricité
Ce produit est conforme au Code canadien de l'électricité et au Code national de l'électricité américain.
Ce produit a été testé selon les normes nationales s'appliquant aux moteurs protégés électroniquement:
CSA 22.2 100.04: 2009 (s'applique au Canada uniquement).
UL 1004-1: Juin 2011 (s'applique aux États-Unis uniquement).
1.2 Radio communication
For USA
This device complies with part 15 of the FCC rules and RSS210 of IC rules.
Operation is subject to the following two conditions:
• This device may not cause interference.
• This device must accept any interference, including interference that may cause undesired operation of the device.
Pour le Canada
Communication radio
Ce dispositif est conforme à la partie 15 des règles de la FCC et aux normes RSS210 de l'IC.
Son fonctionnement est soumis aux deux conditions suivantes:
• Ce dispositif ne doit pas provoquer de brouillage préjudiciable.
• Il doit accepter tout brouillage reçu, y compris le brouillage pouvant entraîner un mauvais fonctionnement.
1.3 Identification numbers
For USA
Grundfos Holding A/S
Contains FCC ID: OG3-RADIOM01-2G4.
For Canada
Grundfos Holding A/S
Model: RADIOMODULE 2G4
Contains IC: 10447A-RA2G4M01.
Pour le Canada
Numéros d'identification
Grundfos Holding A/S
Modèle: RADIOMODULE 2G4
Contient IC: 10447A-RA2G4M01.
Location of identification numbers
Fig. 1 Identification numbers
Fig. 2 Identification numbers
1.4 Electrical connection
1.4.1 Conductors
Use 140/167 °F (60/75 °C) copper conductors only.
1.4.2 Torques
Maximum tightening torques for the terminals can be found in section Torques, page 34.
1.4.3 Line reactors
Maximum line reactor size must not exceed 1.5 mH.
1.4.4 Fuse size/circuit breaker
If a short-circuit occurs, the pump can be used on a mains supply delivering not more than 5000 RMS symmetrical amperes, 600 V maximum.
Fuses
When the motor is protected by fuses, they must be rated for 480 V. Maximum sizes are stated in the table above.
Motors up to and including 2.2 kW require class K5 UR fuses.
Circuit breaker
When the pump is protected by a circuit breaker, this must be rated for a maximum voltage of 480 V. The circuit breaker must be of the "inverse time" type.The interrupting rating (RMS symmetrical amperes) must not be less than the values stated in the table above.
1.4.5 Overload protection
Degree of overload protection provided internally by the drive, in percent of full-load current: 102 %.
Subject to alterations.
NoteIn order to maintain the cURus approval, follow these additional installation instructions. The UL approval is according to UL 1004-1.
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Motor size Fuse size Circuit breaker type/model
0.25 to 2.2 kW 25 A 25 A / inverse time
Stop
Identification numbers
Identification numbers
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Declaration of conformity 2
GB: EC declaration of conformityWe, Grundfos, declare under our sole responsibility that the products CRE, CRIE, CRNE, SPKE, MTRE and CME, to which this declaration relates, are in conformity with these Council directives on the approximation of the laws of the EC member states:
CN: EC 产品合格声明书我们格兰富在我们的全权责任下声明,产品 CRE, CRIE, CRNE, SPKE, MTRE and CME,即该合格证所指之产品,符合欧共体使其成员国法律趋于一致的以下欧共理事会指令:
— Machinery Directive (2006/42/EC).Standard used: EN 809:1998, A1:2009.
— EMC Directive (2004/108/EC).Standard used: EN 61800-3:2005.
— R&TTE Directive (1999/5/EC).Standard used: ETSI EN 300 328 V1.7.1 (2006-10).
— Ecodesign Directive (2009/125/EC).Water pumps:Commission Regulation No 547/2012.Applies only to water pumps marked with the minimum efficiency index MEI. See pump nameplate.
This EC declaration of conformity is only valid when published as part of the Grundfos safety instructions (publication number 98610997 0414).Bjerringbro, 7th June 2013
Jan Strandgaard Technical Director
Grundfos Holding A/SPoul Due Jensens Vej 7
8850 Bjerringbro, Denmark
Person authorised to compile technical file and empowered to sign the EC declaration of conformity.
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ArgentinaBombas GRUNDFOS de Argentina S.A.Ruta Panamericana km. 37.500 Centro Industrial Garin1619 Garín Pcia. de B.A.Phone: +54-3327 414 444Telefax: +54-3327 45 3190
AustraliaGRUNDFOS Pumps Pty. Ltd. P.O. Box 2040 Regency Park South Australia 5942 Phone: +61-8-8461-4611 Telefax: +61-8-8340 0155
AustriaGRUNDFOS Pumpen Vertrieb Ges.m.b.H.Grundfosstraße 2 A-5082 Grödig/Salzburg Tel.: +43-6246-883-0 Telefax: +43-6246-883-30
BelgiumN.V. GRUNDFOS Bellux S.A. Boomsesteenweg 81-83 B-2630 Aartselaar Tél.: +32-3-870 7300 Télécopie: +32-3-870 7301
BelarusПредставительство ГРУНДФОС в Минске220125, Минскул. Шафарнянская, 11, оф. 56, БЦ «Порт»Тел.: +7 (375 17) 286 39 72/73Факс: +7 (375 17) 286 39 71E-mail: [email protected]
Bosna and HerzegovinaGRUNDFOS SarajevoZmaja od Bosne 7-7A,BH-71000 SarajevoPhone: +387 33 592 480Telefax: +387 33 590 465www.ba.grundfos.come-mail: [email protected]
BrazilBOMBAS GRUNDFOS DO BRASILAv. Humberto de Alencar Castelo Branco, 630CEP 09850 - 300São Bernardo do Campo - SPPhone: +55-11 4393 5533Telefax: +55-11 4343 5015
BulgariaGrundfos Bulgaria EOODSlatina DistrictIztochna Tangenta street no. 100BG - 1592 SofiaTel. +359 2 49 22 200Fax. +359 2 49 22 201email: [email protected]
CanadaGRUNDFOS Canada Inc. 2941 Brighton Road Oakville, Ontario L6H 6C9 Phone: +1-905 829 9533 Telefax: +1-905 829 9512
ChinaGRUNDFOS Pumps (Shanghai) Co. Ltd.10F The Hub, No. 33 Suhong RoadMinhang DistrictShanghai 201106PRCPhone: +86 21 612 252 22Telefax: +86 21 612 253 33
CroatiaGRUNDFOS CROATIA d.o.o.Buzinski prilaz 38, BuzinHR-10010 ZagrebPhone: +385 1 6595 400 Telefax: +385 1 6595 499www.hr.grundfos.com
Czech RepublicGRUNDFOS s.r.o.Čajkovského 21779 00 OlomoucPhone: +420-585-716 111Telefax: +420-585-716 299
DenmarkGRUNDFOS DK A/S Martin Bachs Vej 3 DK-8850 Bjerringbro Tlf.: +45-87 50 50 50 Telefax: +45-87 50 51 51 E-mail: [email protected]/DK
EstoniaGRUNDFOS Pumps Eesti OÜPeterburi tee 92G11415 TallinnTel: + 372 606 1690Fax: + 372 606 1691
FinlandOY GRUNDFOS Pumput AB Mestarintie 11 FIN-01730 Vantaa Phone: +358-(0)207 889 900Telefax: +358-(0)207 889 550
FrancePompes GRUNDFOS Distribution S.A. Parc d’Activités de Chesnes 57, rue de Malacombe F-38290 St. Quentin Fallavier (Lyon) Tél.: +33-4 74 82 15 15 Télécopie: +33-4 74 94 10 51
GermanyGRUNDFOS GMBHSchlüterstr. 3340699 ErkrathTel.: +49-(0) 211 929 69-0 Telefax: +49-(0) 211 929 69-3799e-mail: [email protected] in Deutschland:e-mail: [email protected]
HILGE GmbH & Co. KGHilgestrasse 37-4755292 Bodenheim/RheinGermanyTel.: +49 6135 75-0Telefax: +49 6135 1737e-mail: [email protected]
GreeceGRUNDFOS Hellas A.E.B.E. 20th km. Athinon-Markopoulou Av. P.O. Box 71 GR-19002 Peania Phone: +0030-210-66 83 400 Telefax: +0030-210-66 46 273
Hong KongGRUNDFOS Pumps (Hong Kong) Ltd. Unit 1, Ground floor Siu Wai Industrial Centre 29-33 Wing Hong Street & 68 King Lam Street, Cheung Sha Wan Kowloon Phone: +852-27861706 / 27861741 Telefax: +852-27858664
HungaryGRUNDFOS Hungária Kft.Park u. 8H-2045 Törökbálint, Phone: +36-23 511 110Telefax: +36-23 511 111
IndiaGRUNDFOS Pumps India Private Limited118 Old Mahabalipuram RoadThoraipakkamChennai 600 096Phone: +91-44 2496 6800
IndonesiaPT GRUNDFOS Pompa Jl. Rawa Sumur III, Blok III / CC-1 Kawasan Industri, Pulogadung Jakarta 13930 Phone: +62-21-460 6909 Telefax: +62-21-460 6910 / 460 6901
IrelandGRUNDFOS (Ireland) Ltd. Unit A, Merrywell Business ParkBallymount Road LowerDublin 12 Phone: +353-1-4089 800 Telefax: +353-1-4089 830
ItalyGRUNDFOS Pompe Italia S.r.l. Via Gran Sasso 4I-20060 Truccazzano (Milano)Tel.: +39-02-95838112 Telefax: +39-02-95309290 / 95838461
JapanGRUNDFOS Pumps K.K.Gotanda Metalion Bldg., 5F, 5-21-15, Higashi-gotandaShiagawa-ku, Tokyo141-0022 JapanPhone: +81 35 448 1391Telefax: +81 35 448 9619
KoreaGRUNDFOS Pumps Korea Ltd.6th Floor, Aju Building 679-5Yeoksam-dong, Kangnam-ku, 135-916Seoul, KoreaPhone: +82-2-5317 600Telefax: +82-2-5633 725
LatviaSIA GRUNDFOS Pumps Latvia Deglava biznesa centrsAugusta Deglava ielā 60, LV-1035, Rīga,Tālr.: + 371 714 9640, 7 149 641Fakss: + 371 914 9646
LithuaniaGRUNDFOS Pumps UABSmolensko g. 6LT-03201 VilniusTel: + 370 52 395 430Fax: + 370 52 395 431
MalaysiaGRUNDFOS Pumps Sdn. Bhd.7 Jalan Peguam U1/25Glenmarie Industrial Park40150 Shah AlamSelangor Phone: +60-3-5569 2922Telefax: +60-3-5569 2866
MexicoBombas GRUNDFOS de México S.A. de C.V. Boulevard TLC No. 15Parque Industrial Stiva AeropuertoApodaca, N.L. 66600Phone: +52-81-8144 4000 Telefax: +52-81-8144 4010
NetherlandsGRUNDFOS NetherlandsVeluwezoom 351326 AE AlmerePostbus 220151302 CA ALMERE Tel.: +31-88-478 6336 Telefax: +31-88-478 6332E-mail: [email protected]
New ZealandGRUNDFOS Pumps NZ Ltd.17 Beatrice Tinsley CrescentNorth Harbour Industrial EstateAlbany, AucklandPhone: +64-9-415 3240Telefax: +64-9-415 3250
NorwayGRUNDFOS Pumper A/S Strømsveien 344 Postboks 235, Leirdal N-1011 Oslo Tlf.: +47-22 90 47 00 Telefax: +47-22 32 21 50
PolandGRUNDFOS Pompy Sp. z o.o.ul. Klonowa 23Baranowo k. PoznaniaPL-62-081 PrzeźmierowoTel: (+48-61) 650 13 00Fax: (+48-61) 650 13 50
PortugalBombas GRUNDFOS Portugal, S.A. Rua Calvet de Magalhães, 241Apartado 1079P-2770-153 Paço de ArcosTel.: +351-21-440 76 00Telefax: +351-21-440 76 90
RomaniaGRUNDFOS Pompe România SRLBd. Biruintei, nr 103 Pantelimon county IlfovPhone: +40 21 200 4100Telefax: +40 21 200 4101E-mail: [email protected]
RussiaООО Грундфос Россия109544, г. Москва, ул. Школьная, 39-41, стр. 1Тел. (+7) 495 564-88-00 (495) 737-30-00Факс (+7) 495 564 88 11E-mail [email protected]
Serbia Grundfos Srbija d.o.o.Omladinskih brigada 90b11070 Novi Beograd Phone: +381 11 2258 740Telefax: +381 11 2281 769www.rs.grundfos.com
SingaporeGRUNDFOS (Singapore) Pte. Ltd.25 Jalan Tukang Singapore 619264 Phone: +65-6681 9688 Telefax: +65-6681 9689
SlovakiaGRUNDFOS s.r.o.Prievozská 4D 821 09 BRATISLAVA Phona: +421 2 5020 1426sk.grundfos.com
SloveniaGRUNDFOS d.o.o.Šlandrova 8b, SI-1231 Ljubljana-ČrnučePhone: +386 31 718 808Telefax: +386 (0)1 5680 619E-mail: [email protected]
South AfricaGRUNDFOS (PTY) LTDCorner Mountjoy and George Allen RoadsWilbart Ext. 2Bedfordview 2008Phone: (+27) 11 579 4800Fax: (+27) 11 455 6066E-mail: [email protected]
SpainBombas GRUNDFOS España S.A. Camino de la Fuentecilla, s/n E-28110 Algete (Madrid) Tel.: +34-91-848 8800 Telefax: +34-91-628 0465
SwedenGRUNDFOS AB Box 333 (Lunnagårdsgatan 6) 431 24 Mölndal Tel.: +46 31 332 23 000Telefax: +46 31 331 94 60
SwitzerlandGRUNDFOS Pumpen AG Bruggacherstrasse 10 CH-8117 Fällanden/ZH Tel.: +41-44-806 8111 Telefax: +41-44-806 8115
TaiwanGRUNDFOS Pumps (Taiwan) Ltd. 7 Floor, 219 Min-Chuan Road Taichung, Taiwan, R.O.C. Phone: +886-4-2305 0868Telefax: +886-4-2305 0878
ThailandGRUNDFOS (Thailand) Ltd. 92 Chaloem Phrakiat Rama 9 Road,Dokmai, Pravej, Bangkok 10250Phone: +66-2-725 8999Telefax: +66-2-725 8998
TurkeyGRUNDFOS POMPA San. ve Tic. Ltd. Sti.Gebze Organize Sanayi Bölgesi Ihsan dede Caddesi,2. yol 200. Sokak No. 20441490 Gebze/ KocaeliPhone: +90 - 262-679 7979Telefax: +90 - 262-679 7905E-mail: [email protected]
UkraineБізнес Центр ЄвропаСтоличне шосе, 103м. Київ, 03131, Україна Телефон: (+38 044) 237 04 00 Факс.: (+38 044) 237 04 01E-mail: [email protected]
United Arab EmiratesGRUNDFOS Gulf DistributionP.O. Box 16768Jebel Ali Free ZoneDubaiPhone: +971 4 8815 166Telefax: +971 4 8815 136
United KingdomGRUNDFOS Pumps Ltd. Grovebury Road Leighton Buzzard/Beds. LU7 4TL Phone: +44-1525-850000 Telefax: +44-1525-850011
U.S.A.GRUNDFOS Pumps Corporation 17100 West 118th TerraceOlathe, Kansas 66061Phone: +1-913-227-3400 Telefax: +1-913-227-3500
UzbekistanGrundfos Tashkent, Uzbekistan The Repre-sentative Office of Grundfos Kazakhstan in Uzbekistan38a, Oybek street, TashkentТелефон: (+998) 71 150 3290 / 71 150 3291Факс: (+998) 71 150 3292
Addresses Revised 10.03.2015
98610997 0414
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